Mutations in the acid alpha-glucosidase gene (M. Pompe) in a patient with an unusual phenotype.

Glycogenosis type II (Pompe disease) is a lysosomal storage disease caused by deficiency of acid alpha-glucosidase (acid maltase). The disease is autosomal recessive inherited and is clinically and genetically heterogenous. The authors describe a 30-year-old woman affected by late-onset Pompe disease with vascular affection resembling atherosclerotic angiopathy of the elderly. Genetic analysis revealed two novel mutations (Ala237Val and Gly293Arg) in the acid alpha-glucosidase gene in this patient.

Mutation analysis in glycogen storage disease type 1 non-a.

We report molecular and clinical findings in 13 patients with rare types of glycogen storage disease 1 (GSD1 non-a). Analysis of G6PT encoding a microsomal transporter protein has revealed mutations on both chromosomes in each case, four of which are novel. Diagnosis has been confirmed in three patients suspected of having GSD1 non-a without enzymatic studies involving liver biopsy, thus emphasising the advantage of G6PT mutation analysis for all GSD1 non-a patients.

[Adult polyglucosan antibody disease. Case report with predominant involvement of the central and peripheral nervous system and branching enzyme defect in leukocytes]. / Adulte Polyglukosankörperkrankheit. Fallbeispiel mit überwiegender Beteiligung des zentralen und peripheren Nervensystems und Branchingenzymdefekt in Leukozyten.

We describe a 46 year old patient with adult polyglucosan body disease (APBD). She presented clinically with late onset pyramidal tetraparesis, sensory motor polyneuropathy and micturition difficulties. Magnetic resonance imaging of the brain revealed extensive leucencephalopathy and diffuse atrophy. The diagnosis based on the demonstration of polyglucosan bodies in the sural nerve biopsy. In search of a possible metabolic defect, we evaluated glycogen metabolism in this patient and her clinically unaffected daughters. Branching enzyme activity in the patients leukocytes was between 20-30% of the lower limit of normal range, whereas their children displayed values of 80%, suggesting a possible autosomal recessive mode of transmission. Branching enzyme deficiency in APBD with predominantly attack of the central and peripheral nervous system was so far described in 3 Jewish patients.

Mutations in the galactose-1-phosphate uridyltransferase gene of two families with mild galactosaemia variants.

Classical galactosaemia, deficiency of galactose-1-phosphate uridyltransferase (GALT), is characterized by acute symptoms of hepatomegaly, jaundice, sepsis, cataracts and growth retardation. Treatment with dietary galactose restriction corrects these complications immediately; however, most of these children develop long-term complications of verbal dyspraxia, mental retardation and ovarian failure. Our previous molecular study showed that the most common mutation of the GALT gene is a missense mutation of Q188R (replacement of glutamine-188 by arginine) in approximately 60-65% of the German galactosaemic population. The coding region of GALT was amplified by the polymerase chain reaction from genomic DNA of classical galactosaemic individuals, who are negative or heterozygous for Q188R, and was further characterized by direct sequencing. Three new disease-causing mutations, two missense and a stop codon mutation, were identified in three patients from two families with mild galactosaemic variants: firstly R67C, replacement of arginine-67 by cysteine and W316X, the stop codon at tryptophan-316 in one male; secondly A330V, replacement of alanine-330 by valine in two female siblings. In the first family the patient was also heterozygous for the polymorphism N314D and in the second family both girls were compound heterozygotes for Q188R and A330V. All three galactosaemic individuals have a considerable amount of the residual GALT activity in RBC and the galactose-1-phosphate (GALP) level decreased much faster on treatment than that of other galactosaemic patients with missense mutations such as Q188R. The clinical and biochemical data of these patients were much more favourable in comparison with those of two female galactosaemic individuals, one homozygous for L195P and the other compound heterozygous for Q188R and L195P. These three missense mutations (R67C, L195P and A330V) also occur in highly conserved regions. These observations suggest that the phenotypic variation in galactosaemic individuals may be due to different molecular aetiologies.